WINDOW(1) MachTen Reference Manual WINDOW(1)
NAME
window - window environment
SYNOPSIS
window [-t] [-f] [-d] [-e escape-char] [-c command]
DESCRIPTION
Window implements a window environment on ASCII
terminals.
A window is a rectangular
portion of the physical terminal screen associ-
ated with a set of processes. Its size and position can be
changed by
the user at any time. Processes communicate with their
window in the
same way they normally interact with a terminal-through
their standard
input, output, and diagnostic file descriptors. The window
program han-
dles the details of redirecting input and output to and from
the windows.
At any one time, only one window can receive input from the
keyboard, but
all windows can simultaneously send output to the
display.
When window starts up, the
commands (see long commands below) contained
in the file .windowrc in the user’s home directory are
executed. If it
does not exist, two equal sized windows spanning the
terminal screen are
created by default.
The command line options are
-t Turn on terse mode (see terse command below).
-f Fast. Don’t perform any startup action.
-d Ignore .windowrc and create the two default windows instead.
-e escape-char
Set the escape character to escape-char. Escape-char can be
a
single character, or in the form ^X where X is any
character,
meaning control-X.
-c command Execute the string
command as a long command (see below) be-
fore doing anything else.
Windows can overlap and are
framed as necessary. Each window is named by
one of the digits ‘‘1’’ to
‘‘9’’. This one-character
identifier, as well
as a user definable label string, are displayed with the
window on the
top edge of its frame. A window can be designated to be in
the
foreground, in which case it will always be on top of all
normal, non-
foreground windows, and can be covered only by other
foreground windows.
A window need not be completely within the edges of the
terminal screen.
Thus a large window (possibly larger than the screen) may be
positioned
to show only a portion of its full size.
Each window has a cursor and a
set of control functions. Most intelli-
gent terminal operations such as line and character deletion
and inser-
tion are supported. Display modes such as underlining and
reverse video
are available if they are supported by the terminal. In
addition, simi-
lar to terminals with multiple pages of memory, each window
has a text
buffer which can have more lines than the window itself.
Process Environment
With each newly created window, a shell program is spawned
with its pro-
cess environment tailored to that window. Its standard
input, output,
and diagnostic file descriptors are bound to one end of
either a pseudo-
terminal (pty(4)) or a UNIX domain socket (socketpair(4)).
If a pseudo-
terminal is used, then its special characters and modes (see
stty(1))
are copied from the physical terminal. A termcap(5) entry
tailored to
this window is created and passed as environment
(environ(5)) variable
TERMCAP. The termcap entry contains the window’s size
and characteristics
as well as information from the physical terminal, such as
the existence
of underline, reverse video, and other display modes, and
the codes pro-
duced by the terminal’s function keys, if any. In
addition, the window
size attributes of the pseudo-terminal are set to reflect
the size of
this window, and updated whenever it is changed by the user.
In particu-
lar, the editor vi(1) uses this information to redraw its
display.
Operation
During normal execution, window can be in one of two states:
conversation
mode and command mode. In conversation mode, the
terminal’s real cursor
is placed at the cursor position of a particular
window--called the cur-
rent window--and input from the keyboard is sent to the
process in that
window. The current window is always on top of all other
windows, except
those in foreground. In addition, it is set apart by
highlighting its
identifier and label in reverse video.
Typing window’s escape
character (normally ^P) in conversation mode
switches it into command mode. In command mode, the top line
of the ter-
minal screen becomes the command prompt window, and window
interprets in-
put from the keyboard as commands to manipulate windows.
There are two types of commands:
short commands are usually one or two
key strokes; long commands are strings either typed by the
user in the
command window (see the ‘‘:’’
command below), or read from a file (see
source below).
Short Commands
Below, # represents one of the digits
‘‘1’’ to
‘‘9’’ corresponding to the
windows 1 to 9. ^X means control-X, where X is any
character. In par-
ticular, ^^ is control-^. Escape is the escape key, or
^[.
# Select window # as the current
window and return to conversation
mode.
%# Select window # but stay in command mode.
^^ Select the previous window
and return to conversation mode. This
is useful for toggling between two windows.
escape Return to conversation mode.
^P Return to conversation mode
and write ^P to the current window.
Thus, typing two ^P’s in conversation mode sends one
to the cur-
rent window. If the window escape is changed to some other
char-
acter, that character takes the place of ^P here.
? List a short summary of commands.
^L Refresh the screen.
q Exit window. Confirmation is requested.
^Z Suspend window.
w Create a new window. The user
is prompted for the positions of
the upper left and lower right corners of the window. The
cursor
is placed on the screen and the keys
‘‘h’’,
‘‘j’’,
‘‘k’’, and
‘‘l’’ move the cursor left, down,
up, and right, respectively.
The keys ‘‘H’’,
‘‘J’’,
‘‘K’’, and
‘‘L’’ move the cursor to the
respective limits of the screen. Typing a number before the
movement keys repeats the movement that number of times.
Return
enters the cursor position as the upper left corner of the
win-
dow. The lower right corner is entered in the same manner.
Dur-
ing this process, the placement of the new window is
indicated by
a rectangular box drawn on the screen, corresponding to
where the
new window will be framed. Typing escape at any point
cancels
this command.
This window becomes the current
window, and is given the first
available ID. The default buffer size is used (see
default_nline
command below).
Only fully visible windows can be created this way.
c# Close window #. The process
in the window is sent the hangup sig-
nal (see kill(1)). Csh(1) should handle this signal
correctly
and cause no problems.
m# Move window # to another
location. A box in the shape of the
window is drawn on the screen to indicate the new position
of the
window, and the same keys as those for the w command are
used to
position the box. The window can be moved partially
off-screen.
M# Move window # to its previous position.
s# Change the size of window #.
The user is prompted to enter the
new lower right corner of the window. A box is drawn to
indicate
the new window size. The same keys used in w and m are used
to
enter the position.
S# Change window # to its previous size.
^Y Scroll the current window up by one line.
^E Scroll the current window down by one line.
^U Scroll the current window up by half the window size.
^D Scroll the current window down by half the window size.
^B Scroll the current window up by the full window size.
^F Scroll the current window down by the full window size.
h Move the cursor of the current window left by one column.
j Move the cursor of the current window down by one line.
k Move the cursor of the current window up by one line.
l Move the cursor of the current window right by one column.
y Yank. The user is prompted to
enter two points within the cur-
rent window. Then the content of the current window between
those two points is saved in the yank buffer.
p Put. The content of the yank
buffer is written to the current
window as input.
^S Stop output in the current window.
^Q Start output in the current window.
: Enter a line to be executed as
long commands. Normal line edit-
ing characters (erase character, erase word, erase line) are
sup-
ported.
Long Commands
Long commands are a sequence of statements parsed much like
a programming
language, with a syntax similar to that of C. Numeric and
string expres-
sions and variables are supported, as well as conditional
statements.
There are two data types: string
and number. A string is a sequence of
letters or digits beginning with a letter.
‘‘_’’ and
‘‘.’’ are consid-
ered letters. Alternately, non-alphanumeric characters can
be included
in strings by quoting them in
‘‘"’’ or escaping them with
‘‘´’. In ad-
dition, the ‘‘´’ sequences of C are
supported, both inside and outside ’’ a carriage
return).
quotes (e.g., ‘‘0’ is a new line,
‘‘ For exam-
ple, these are legal strings: abcde01234,
"&#$^*&#", ab"$#"cd, ab
"/usr/ucb/window".
A number is an integer value in
one of three forms: a decimal number, an
octal number preceded by ‘‘0’’, or a
hexadecimal number preceded by
‘‘0x’’ or
‘‘0X’’. The natural machine integer
size is used (i.e., the
signed integer type of the C compiler). As in C, a non-zero
number rep-
resents a boolean true.
The character
‘‘#’’ begins a comment which
terminates at the end of the
line.
A statement is either a
conditional or an expression. Expression state-
ments are terminated with a new line or
‘‘;’’. To continue an expression
on the next line, terminate the first line with
‘‘´’.
Conditional Statement
Window has a single control structure: the fully bracketed
if statement
in the form
if <expr> then
<statement>
...
elsif <expr> then
<statement>
...
else
<statement>
...
endif
The else and elsif parts are
optional, and the latter can be repeated any
number of times. <Expr> must be numeric.
Expressions
Expressions in window are similar to those in the C
language, with most C
operators supported on numeric operands. In addition, some
are overload-
ed to operate on strings.
When an expression is used as a
statement, its value is discarded after
evaluation. Therefore, only expressions with side effects
(assignments
and function calls) are useful as statements.
Single valued (no arrays)
variables are supported, of both numeric and
string values. Some variables are predefined. They are
listed below.
The operators in order of increasing precedence:
<expr1> = <expr2>
Assignment. The variable of name <expr1>, which must
be
string valued, is assigned the result of <expr2>.
Returns the
value of <expr2>.
<expr1> ? <expr2> :
<expr3>
Returns the value of <expr2> if <expr1>
evaluates true (non-
zero numeric value); returns the value of <expr3>
otherwise.
Only one of <expr2> and <expr3> is evaluated.
<Expr1> must
be numeric.
<expr1> || <expr2>
Logical or. Numeric values only. Short circuit evaluation
is supported (i.e., if <expr1> evaluates true, then
<expr2>
is not evaluated).
<expr1> &&
<expr2>
Logical and with short circuit evaluation. Numeric values
only.
<expr1> | <expr2>
Bitwise or. Numeric values only.
<expr1> ^ <expr2>
Bitwise exclusive or. Numeric values only.
<expr1> &
<expr2>
Bitwise and. Numeric values only.
<expr1> == <expr2>,
<expr1> != <expr2>
Comparison (equal and not equal, respectively). The boolean
result (either 1 or 0) of the comparison is returned. The
operands can be numeric or string valued. One string operand
forces the other to be converted to a string in
necessary.
<expr1> <
<expr2>, <expr1> > <expr2>,
<expr1> <= <expr2>,
Less than, greater than, less than or equal to, greater than
or equal to. Both numeric and string values, with automatic
conversion as above.
<expr1> <<
<expr2>, <expr1> >> <expr2>
If both operands are numbers, <expr1> is bit shifted
left (or
right) by <expr2> bits. If <expr1> is a string,
then its
first (or last) <expr2> characters are returns (if
<expr2> is
also a string, then its length is used in place of its val-
ue).
<expr1> + <expr2>,
<expr1> - <expr2>
Addition and subtraction on numbers. For
‘‘+’’, if one argu-
ment is a string, then the other is converted to a string,
and the result is the concatenation of the two strings.
<expr1> * <expr2>,
<expr1> / <expr2>, <expr1> % <expr2>
Multiplication, division, modulo. Numbers only.
-<expr>, ~<expr>,
!<expr>, $<expr>, $?<expr>
The first three are unary minus, bitwise complement and
logi-
cal complement on numbers only. The operator,
‘‘$’’, takes
<expr> and returns the value of the variable of that
name.
If <expr> is numeric with value n and it appears
within an
alias macro (see below), then it refers to the nth argument
of the alias invocation. ‘‘$?’’
tests for the existence of
the variable <expr>, and returns 1 if it exists or 0
other-
wise.
<expr>(<arglist>)
Function call. <Expr> must be a string that is the
unique
prefix of the name of a builtin window function or the full
name of a user defined alias macro. In the case of a builtin
function, <arglist> can be in one of two forms:
<expr1>, <expr2>,
...
argname1 = <expr1>, argname2 = <expr2>, ...
The two forms can in fact be
intermixed, but the result is
unpredictable. Most arguments can be omitted; default values
will be supplied for them. The argnames can be unique pre-
fixes of the argument names. The commas separating arguments
are used only to disambiguate, and can usually be
omitted.
Only the first argument form is
valid for user defined alias-
es. Aliases are defined using the alias builtin function
(see below). Arguments are accessed via a variant of the
variable mechanism (see ‘‘$’’
operator above).
Most functions return value, but
some are used for side ef-
fect only and so must be used as statements. When a function
or an alias is used as a statement, the parentheses
surround-
ing the argument list may be omitted. Aliases return no val-
ue.
Builtin Functions
The arguments are listed by name in their natural order.
Optional argu-
ments are in square brackets ‘[]’. Arguments
that have no names are in
angle brackets ‘<>’. An argument meant to
be a boolean flag (often named
flag) can be one of on, off, yes, no, true, or false, with
obvious mean-
ings, or it can be a numeric expression, in which case a
non-zero value
is true.
alias([<string>],
[<string-list)>]
If no argument is given, all currently defined alias macros
are listed. Otherwise, <string> is defined as an
alias, with
expansion <string-list >>. The previous definition
of
<string>, if any, is returned. Default for
<string-list> is
no change.
close(<window-list>)
Close the windows specified in <window-list>. If
<window-list> is the word all, than all windows are
closed.
No value is returned.
cursormodes([modes])
Set the window cursor to modes. Modes is the bitwise or of
the mode bits defined as the variables m_ul (underline),
m_rev (reverse video), m_blk (blinking), and m_grp
(graphics,
terminal dependent). Return value is the previous modes.
Default is no change. For example, cursor($m_rev$m_blk) sets
the window cursors to blinking reverse video.
default_nline([nline])
Set the default buffer size to nline. Initially, it is 48
lines. Returns the old default buffer size. Default is no
change. Using a very large buffer can slow the program down
considerably.
default_shell([<string-list>])
Set the default window shell program to <string-list>.
Re-
turns the first string in the old shell setting. Default is
no change. Initially, the default shell is taken from the
environment variable SHELL.
default_smooth([flag])
Set the default value of the smooth argument to the command
window (see below). The argument is a boolean flag (one of
on, off, yes, no, true, false, or a number, as described
above). Default is no change. The old value (as a number)
is returned. The initial value is 1 (true).
echo([window],
[<string-list>])
Write the list of strings, <string-list>, to window,
separat-
ed by spaces and terminated with a new line. The strings are
only displayed in the window, the processes in the window
are
not involved (see write below). No value is returned. De-
fault is the current window.
escape([escapec])
Set the escape character to escape-char. Returns the old es-
cape character as a one-character string. Default is no
change. Escapec can be a string of a single character, or in
the form -^X, meaning control-X.
foreground([window], [flag])
Move window in or out of foreground. Flag is a boolean val-
ue. The old foreground flag is returned. Default for window
is the current window, default for flag is no change.
label([window], [label])
Set the label of window to label. Returns the old label as a
string. Default for window is the current window, default
for label is no change. To turn off a label, set it to an
empty string ("").
list() No arguments. List the
identifiers and labels of all win-
dows. No value is returned.
select([window])
Make window the current window. The previous current window
is returned. Default is no change.
source(filename)
Read and execute the long commands in filename. Returns -1
if
the file cannot be read, 0 otherwise.
terse([flag])
Set terse mode to flag. In terse mode, the command window
stays hidden even in command mode, and errors are reported
by
sounding the terminal’s bell. Flag can take on the
same val-
ues as in foreground above. Returns the old terse flag. De-
fault is no change.
unalias(alias)
Undefine alias. Returns -1 if alias does not exist, 0 other-
wise.
unset(variable)
Undefine variable. Returns -1 if variable does not exist, 0
otherwise.
variables()
No arguments. List all variables. No value is returned.
window([row], [column], [nrow],
[ncol], [nline], [label], [pty], [frame],
[mapnl], [keepopen], [smooth], [shell]).
Open a window with upper left corner at row, column and size
nrow, ncol. If nline is specified, then that many lines are
allocated for the text buffer. Otherwise, the default buffer
size is used. Default values for row, column, nrow, and ncol
are, respectively, the upper, left-most, lower, or
right-most
extremes of the screen. Label is the label string. Frame,
pty, and mapnl are flag values interpreted in the same way
as
the argument to foreground (see above); they mean, respec-
tively, put a frame around this window (default true), allo-
cate pseudo-terminal for this window rather than socketpair
(default true), and map new line characters in this window
to
carriage return and line feed (default true if socketpair is
used, false otherwise). Normally, a window is automatically
closed when its process exits. Setting keepopen to true (de-
fault false) prevents this action. When smooth is true, the
screen is updated more frequently (for this window) to pro-
duce a more terminal-like behavior. The default value of
smooth is set by the default_smooth command (see above).
Shell is a list of strings that will be used as the shell
program to place in the window (default is the program
speci-
fied by default_shell, see above). The created
window’s
identifier is returned as a number.
write([window],
[<string-list>])
Send the list of strings, <string-list>, to window,
separated
by spaces but not terminated with a new line. The strings
are actually given to the window as input. No value is re-
turned. Default is the current window.
Predefined Variables
These variables are for information only. Redefining them
does not af-
fect the internal operation of window.
baud The baud rate as a number between 50 and 38400.
modes The display modes (reverse
video, underline, blinking, graphics)
supported by the physical terminal. The value of modes is
the
bitwise or of some of the one bit values, m_blk, m_grp,
m_rev, and
m_ul (see below). These values are useful in setting the
window
cursors’ modes (see cursormodes above).
m_blk The blinking mode bit.
m_grp The graphics mode bit (not very useful).
m_rev The reverse video mode bit.
m_ul The underline mode bit.
ncol The number of columns on the physical screen.
nrow The number of rows on the physical screen.
term The terminal type. The
standard name, found in the second name
field of the terminal’s TERMCAP entry, is used.
ENVIRONMENT
Window utilizes these environment variables: HOME, SHELL,
TERM, TERMCAP,
WINDOW_ID.
FILES
~/.windowrc startup command file.
/dev/[pt]ty[pq]? pseudo-terminal devices.
HISTORY
The window command appeared in 4.3BSD.
DIAGNOSTICS
Should be self explanatory.
4.3 Berkeley Distribution December 30, 1993 8